Increasing maternal glucose concentrations is insufficient to restore placental glucose transfer in chorionic somatomammotropin RNA interference pregnancies.

IF 4.2 2区 医学 Q1 ENDOCRINOLOGY & METABOLISM American journal of physiology. Endocrinology and metabolism Pub Date : 2024-05-01 Epub Date: 2024-02-14 DOI:10.1152/ajpendo.00331.2023
Amelia R Tanner, Victoria C Kennedy, Cameron S Lynch, Quinton A Winger, Russell V Anthony, Paul J Rozance
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Abstract

We previously demonstrated impaired placental nutrient transfer in chorionic somatomammotropin (CSH) RNA interference (RNAi) pregnancies, with glucose transfer being the most impacted. Thus, we hypothesized that despite experimentally elevating maternal glucose, diminished umbilical glucose uptake would persist in CSH RNAi pregnancies, demonstrating the necessity of CSH for adequate placental glucose transfer. Trophectoderm of sheep blastocysts (9 days of gestational age; dGA) were infected with a lentivirus expressing either nontargeting control (CON RNAi; n = 5) or CSH-specific shRNA (CSH RNAi; n = 7) before transfer into recipient sheep. At 126 dGA, pregnancies were fitted with vascular catheters and underwent steady-state metabolic studies (3H2O transplacental diffusion) at 137 ± 0 dGA, before and during a maternal hyperglycemic clamp. Umbilical glucose and oxygen uptakes, as well as insulin and IGF1 concentrations, were impaired (P ≤ 0.01) in CSH RNAi fetuses and were not rescued by elevated maternal glucose. This is partially due to impaired uterine and umbilical blood flow (P ≤ 0.01). However, uteroplacental oxygen utilization was greater (P ≤ 0.05) during the maternal hyperglycemic clamp, consistent with greater placental oxidation of substrates. The relationship between umbilical glucose uptake and the maternal-fetal glucose gradient was analyzed, and while the slope (CON RNAi, Y = 29.54X +74.15; CSH RNAi, Y = 19.05X + 52.40) was not different, the y-intercepts and elevation were (P = 0.003), indicating reduced maximal glucose transport during maternal hyperglycemia. Together, these data suggested that CSH plays a key role in modulating placental metabolism that ultimately promotes maximal placental glucose transfer.NEW & NOTEWORTHY The current study demonstrated a novel, critical autocrine role for chorionic somatomammotropin in augmenting placental glucose transfer and maintaining placental oxidative metabolism. In pregnancies with CSH deficiency, excess glucose in maternal circulation is insufficient to overcome fetal hypoglycemia due to impaired placental glucose transfer and elevated placental metabolic demands. This suggests that perturbations in glucose transfer in CSH RNAi pregnancies are due to compromised metabolic efficiency along with reduced placental mass.

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增加母体葡萄糖浓度不足以恢复绒毛膜促体生长素 RNA 干扰妊娠的胎盘葡萄糖转移。
我们之前证明了绒毛膜促性腺激素(CSH)RNA干扰(RNAi)妊娠中胎盘营养物质转移受损,其中葡萄糖转移受到的影响最大。因此,我们假设,尽管实验中母体葡萄糖升高,但 CSH RNAi 孕妇的脐带葡萄糖摄取仍会持续减少,这证明了 CSH 对胎盘充分葡萄糖转移的必要性。在将绵羊囊胚(胎龄 9 dGA)移植到受体绵羊体内之前,用表达非靶向对照(CON RNAi;n = 5)或 CSH 特异性 shRNA(CSH RNAi;n = 7)的慢病毒感染囊胚。在 126 dGA 时,为孕妇安装血管导管,并在 137±0 dGA、母体高血糖钳夹前和钳夹期间进行稳态代谢研究(3H2O 经胎盘扩散)。CSH RNAi 胎儿的脐带血葡萄糖和氧气摄取量以及胰岛素和 IGF1 浓度均受损(P ≤ 0.01),且不会因母体血糖升高而恢复。部分原因是子宫和脐带血流受损(P ≤ 0.01)。然而,在母体高血糖钳夹期间,子宫胎盘氧利用率更高(P ≤ 0.05),这与胎盘底物氧化更多一致。分析了脐带葡萄糖摄取量与母胎葡萄糖梯度之间的关系,虽然斜率(CON RNAi,Y=29.54X +74.15;CSH RNAi,Y=19.05X +52.40)没有差异,但Y截距和升高有差异(P = 0.003),表明母体高血糖时最大葡萄糖转运减少。这些数据共同表明,CSH 在调节胎盘代谢中起着关键作用,最终促进胎盘最大葡萄糖转运。
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来源期刊
CiteScore
9.80
自引率
0.00%
发文量
98
审稿时长
1 months
期刊介绍: The American Journal of Physiology-Endocrinology and Metabolism publishes original, mechanistic studies on the physiology of endocrine and metabolic systems. Physiological, cellular, and molecular studies in whole animals or humans will be considered. Specific themes include, but are not limited to, mechanisms of hormone and growth factor action; hormonal and nutritional regulation of metabolism, inflammation, microbiome and energy balance; integrative organ cross talk; paracrine and autocrine control of endocrine cells; function and activation of hormone receptors; endocrine or metabolic control of channels, transporters, and membrane function; temporal analysis of hormone secretion and metabolism; and mathematical/kinetic modeling of metabolism. Novel molecular, immunological, or biophysical studies of hormone action are also welcome.
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